Systems and methods for implantable leadless cochlear stimulation
First Claim
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1. A method for stimulating within the cochlea of the ear comprising:
- transmitting acoustic energy using a controller-transmitter, wherein the controller-transmitter comprises acoustic transducers disposed in a housing and one or more sensors disposed on an external surface of the housing, and wherein the one or more sensors are configured to detect electrical stimulation output and wherein the acoustic energy contains both energy and signal information;
receiving said acoustic energy at a cochlea stimulation site using a receiver-stimulator, wherein the receiver-stimulator comprises one or more stimulation electrodes such that the stimulation electrodes lie in electrical communication with the cochlea stimulation site, wherein said acoustic energy is converted into electrical cochlea stimulation output by the receiver-stimulator;
delivering said cochlea electrical stimulation output to the cochlea stimulation site using the stimulation electrodes;
sensing the cochlea electrical stimulation output using one or more of the sensors; and
adjusting the acoustic energy transmission from the controller-transmitter to compensate for changes in the cochlea electrical stimulation output.
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Abstract
Systems and methods are disclosed to enable hearing in the deaf by stimulating sites in the cochlea. The invention uses electrical stimulation in the cochlea, where vibrational energy from a source is received by an implanted device and converted to electrical energy and the converted electrical energy is used by implanted electrodes to stimulate the cochlear nerve. The vibrational energy is generated by a controller-transmitter, which could be located either externally or implanted. The vibrational energy is received by a receiver-stimulator, which contains multiple electrodes to stimulate along selected sites in the cochlea.
19 Citations
8 Claims
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1. A method for stimulating within the cochlea of the ear comprising:
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transmitting acoustic energy using a controller-transmitter, wherein the controller-transmitter comprises acoustic transducers disposed in a housing and one or more sensors disposed on an external surface of the housing, and wherein the one or more sensors are configured to detect electrical stimulation output and wherein the acoustic energy contains both energy and signal information; receiving said acoustic energy at a cochlea stimulation site using a receiver-stimulator, wherein the receiver-stimulator comprises one or more stimulation electrodes such that the stimulation electrodes lie in electrical communication with the cochlea stimulation site, wherein said acoustic energy is converted into electrical cochlea stimulation output by the receiver-stimulator; delivering said cochlea electrical stimulation output to the cochlea stimulation site using the stimulation electrodes; sensing the cochlea electrical stimulation output using one or more of the sensors; and adjusting the acoustic energy transmission from the controller-transmitter to compensate for changes in the cochlea electrical stimulation output. - View Dependent Claims (3, 4, 5, 6, 7, 8)
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2. A method for stimulating within the cochlea of the ear comprising:
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placing one or more stimulation electrodes at a cochlea stimulation site, wherein the stimulation electrodes lie in electrical communication with the cochlea stimulation site; transmitting acoustic energy from a first implantation site using a controller-transmitter, wherein the controller-transmitter comprises acoustic transducers disposed in a housing and one or more sensors disposed on an external surface of the housing, and wherein the one or more sensors are configured to detect one or more physiological parameters and wherein the acoustic energy contains both energy and signal information; receiving said acoustic energy at a second implantation site using the receiver-stimulator wherein said acoustic energy is converted into cochlea electrical stimulation output by the receiver-stimulator; delivering the cochlea electrical stimulation output to the cochlea stimulation site using the stimulation electrodes via electrical connection to the stimulation electrodes; sensing the cochlea electrical stimulation output using one or more of the sensors; and adjusting the acoustic energy transmission from the controller-transmitter to compensate for changes in the cochlea electrical stimulation output.
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Specification